GE Analytical Instruments Expands Portfolio of Deployable Technologies for Process Optimization

BOULDER, COLORADO, April 8, 2008 — GE Water & Process Technologies has acquired the assets of Sensicore, Inc., a developer of smart, hand-held sensor systems for measuring and monitoring water quality in the field. Sensicore will become a unit of GE Water’s analytical instrumentation division, GE Analytical Instruments, based in Boulder, Colorado. Sensicore’s proprietary hand-held WaterPOINT testing tool focuses on the municipal market and is designed to improve water quality and plant operations at every step in the water treatment process. WaterPOINT uses silicon sensor chips to provide a complete profile of 18 critical water tests in minutes, enabling municipalities to better manage resources and quickly respond to changing conditions. The company also offers the WaterNow online data network that helps users understand this data through unique visualization and comparison tools. “Sensicore has developed a hand held field deployable instrument that offers a combination of electrochemical, physical, and colorimetric technologies for measuring water quality in real time,” said Dr. Michael W. Routh, General Manager, GE Analytical Instruments. “This differentiated approach compliments our existing portfolio of deployable instrumentation and builds on our strategy to facilitate real time process optimization by providing immediate, at-site feedback.” GE Analytical Instruments develops and markets a range of lab, on-line, and portable instruments and sensors for process management, including Total Organic Carbon (TOC) analyzers and sensors that provide real time measurements for making critical process and quality decisions in the pharmaceutical, semiconductor, and municipal markets.

GE Analytical Instruments Products

GE Analytical Instruments combines advanced microchemistry, molecular and atomic physical measurement, along with superior engineering, to achieve the most sensitive laboratory and process control instrumentation available. The world's leading manufacturer of instruments used to measure total organic carbon (TOC) in water, we also offer other innovative analytical instrumentation solutions for a wide range of applications and analysis. Our product brands include Sievers and Leakwise. Sievers® World leading TOC analyzers and sensors for organic analysis in ultrapure, municipal quality, and waste waters focusing on pharmaceutical, semiconductor, municipal, power generation, industrial process, environmental, and wastewater applications. The world's only on-line boron analyzer, possessing low part-per-trillion sensitivity and providing continuous monitoring and protection in microelectronics and power applications. Industry standard nitric oxide analyzer serving the medical research community in the development of diagnostic strategies for a variety of diseases. Leakwise® Breakthrough technology providing environmentally sensitive applications with the most reliable and accurate means to detect and measure oil on water and oil spills. For more information about our products, please select your area of interest: • TOC Analysis • Boron Analyzer • Nitric Oxide Analyzer (NOA) • Standards • Leakwise Oil-on-Water Monitoring Systems • Sensicore WaterPoint 870 Water Quality Analyzer • Parts and Accessories • Software

InnovOx Laboratory TOC Analyzer

Measures Thousands of TOC Samples - All Day, Every Day The new Sievers InnovOx Laboratory Total Organic Carbon (TOC) Analyzer represents a true breakthrough in high TOC measurement technology and reliability. The InnovOx (short for innovative oxidation) can consecutively handle thousands of common—as well as difficult samples such as brine and cellulose—with unprecedented system uptime. The InnovOx offers unparalleled oxidation robustness, a dynamic linear working range of 0.5 to 50,000 ppm, and calibration curve stability for industrial waste and environmental or process water samples. Supercritical Water Oxidation (SCWO) Technique GE Analytical Instruments' patent-pending Supercritical Water Oxidation (SCWO) technique enables the InnovOx to achieve its superior analytical performance and unsurpassed calibration stability. Using an oxidation process in a super critical state has shown superior TOC recoveries across a broad range of organic compounds and particulate impurities. This new process removes sample and precipitated impurities between each analytical run, eliminating sample matrices contamination and providing reliable, long-term system performance. Versatile Measurement Modes With the InnovOx, analysts can routinely test for Total Carbon (TC), Total Inorganic Carbon (TIC), Total Organic Carbon (TOC), and Non-Purgeable Organic Carbon (NPOC). The InnovOx software provides versatile analysis options such as multiple runs on the same sample, auto calibration range selection, and integration with the Sievers 900 Autosampler.

Leakwise Oil on Water Detection and Monitoring Systems

With the Leakwise product line, GE Analytical Instruments has broadened its water quality measurement capability with break-through technology to monitor oil on water. As environmental concerns mount regarding our global water resources, Leakwise oil on water measurement systems provide state of the art solutions for the early detection and mitigation of water pollution events. Oil refineries, seaport authorities, water municipalities and power generation facilities represent a few of the industries benefiting from Leakwise technology. The Leakwise oil detection sensors use high frequency electromagnetic energy absorption floating sensors, which enable reliable monitoring of hydrocarbon on water regardless of dirt or oil coating of the sensor or change in water level or water salinity. (Click here to see a 4-minute presentation on the Leakwise system.) The Leakwise product family includes: ID-221 Oil Sheen Monitoring System — Hydrocarbon on water detector for sumps (wet), tanks, ponds, and groundwater wells ID-223 Oil Sheen Monitoring System — Hydrocarbon on water detector for sumps (wet and dry), ponds, and canals ID-225 Oil Thickness Monitoring System — Hydrocarbon layer thickness monitor for oil/water separators, groundwater wells, sumps (wet), tanks, and ponds ID-227 Oil Sheen Monitoring System for Marine Applications — Hydrocarbon on water wave rider detector for marine offshore applications, lagoons, lakes, rivers, open canals, and large retention ponds ID-227 WL Wireless Oil Spill Detection System for Marine Applications — Wireless hydrocarbon detection and monitoring for on and offshore applications

Nitric Oxide Analyzer (NOA 280i)

The Sievers® Nitric Oxide Analyzer (NOA 280i) offers the most versatile detection system for Nitric Oxide (NO) analysis. Employing GE Analytical Instruments' highly sensitive, ozone-chemiluminescence technology, the NOA 280i has unsurpassed versatility for liquid and exhaled breath NO measurement. With over 700 publications using the Sievers Nitric Oxide Analyzer, the NOA has proven to be the instrumentation of choice by researchers worldwide. For detailed information on the 280i NOA, please click here or on the main navigation menu above.

UPW Boron Analyzer

Your View of Boron is About to Change . . . With a limit of detection of 15 parts-per-trillion boron and up to 10 samples per hour, continuous boron monitoring in ultrapure water has just become very affordable and remarkably convenient. The Sievers UPW Boron Analyzer even exceeds ICP-MS performance (see Progress Report on New On-line Boron Analyzer Research), and does it at a fraction of the cost. A true "plug-and-play" instrument, the boron analyzer can be installed in less than an hour, requires no skilled or trained operator, and provides the sensitivity and accuracy of ICP-MS or on-line Ion Chromatography. A built-in multiplexor even allows for monitoring of up to four sample streams with customizable settings for each stream. Where is the Sievers UPW Boron Analyzer being used? At the outlet of primary mixed-resin beds. Boron is released from these beds prior to silica (see Boron-related technical papers), and continuous monitoring of bed effluent provides operators with the earliest indication of changing bed conditions and bed exhaustion. At the outlet of polishing resins. The earliest indicator of polishing resin exhaustion, and a potential contaminant in wafer processing, real-time boron data from the polishing bed effluent is critical to today's advanced fabrication facilities. At the outlet of Electrodeionization units. A well-run EDI balances power consumption against contaminant removal. Boron is weakly ionic, and is a critical indicator of EDI performance (see two technical papers by Steve Chen). Regeneration processes. An expected source of boron in any UPW system is regenerated resins. Boron specifications for regenerated resins help ensure the lowest possible boron loading of UPW systems, thus minimizing future regenerations and polish resin contaminant loading. For detailed information on the Boron Analyzer, please click here or on the main navigation menu above.